﻿* Encoding: UTF-8.

DATASET ACTIVATE DataSet1.
FREQUENCIES VARIABLES=GROUP LOC GENDER RELIGIOSITY LIVING MIFLAGA FAMILYSTATUS FAMILYINCOME 
    EDUCATION PROFESSION BORNPLACE IMIGRATION
  /ORDER=ANALYSIS.

DESCRIPTIVES VARIABLES=AGE
  /STATISTICS=MEAN STDDEV MIN MAX.

  CROSSTABS
  /TABLES=GENDER FS1 FS2 FS3 RELIGIOSITY EDUCATION LOC1 LOC2 LOC3 LOC4 LOC5 LOC6 LOC7 L1 L2 L3 L4 L5 FAMILYINCOME BORNPLACE 
    IMIGRATION MIF1 MIF2 MIF3 MIF4 MIF5 MIF6 MIF7 MIF8 MIF9 MIF11 MIF12 MIF14 NO_ANSWER
      BY GROUP
  /FORMAT=AVALUE TABLES
  /STATISTICS=CHISQ 
  /CELLS=COUNT EXPECTED ROW COLUMN TOTAL 
  /COUNT ROUND CELL.

  CROSSTABS
  /TABLES=GENDER FS1 FS2 FS3 RELIGIOSITY EDUCATION LOC1 LOC2 LOC3 LOC4 LOC5 LOC6 LOC7 L1 L2 L3 L4 L5 FAMILYINCOME BORNPLACE 
    IMIGRATION MIF1 MIF2 MIF3 MIF4 MIF5 MIF6 MIF7 MIF8 MIF9 MIF11 MIF12 MIF14 NO_ANSWER
      BY GROUP1
  /FORMAT=AVALUE TABLES
  /STATISTICS=CHISQ 
  /CELLS=COUNT EXPECTED ROW COLUMN TOTAL 
  /COUNT ROUND CELL.

  CROSSTABS
  /TABLES=GENDER FS1 FS2 FS3 RELIGIOSITY EDUCATION LOC1 LOC2 LOC3 LOC4 LOC5 LOC6 LOC7 L1 L2 L3 L4 L5 FAMILYINCOME BORNPLACE 
    IMIGRATION MIF1 MIF2 MIF3 MIF4 MIF5 MIF6 MIF7 MIF8 MIF9 MIF11 MIF12 MIF14 NO_ANSWER
      BY GROUP2
  /FORMAT=AVALUE TABLES
  /STATISTICS=CHISQ 
  /CELLS=COUNT EXPECTED ROW COLUMN TOTAL 
  /COUNT ROUND CELL.

  CROSSTABS
  /TABLES=GENDER FS1 FS2 FS3 RELIGIOSITY EDUCATION LOC1 LOC2 LOC3 LOC4 LOC5 LOC6 LOC7 L1 L2 L3 L4 L5 FAMILYINCOME BORNPLACE 
    IMIGRATION MIF1 MIF2 MIF3 MIF4 MIF5 MIF6 MIF7 MIF8 MIF9 MIF11 MIF12 MIF14 NO_ANSWER
      BY GROUP3
  /FORMAT=AVALUE TABLES
  /STATISTICS=CHISQ 
  /CELLS=COUNT EXPECTED ROW COLUMN TOTAL 
  /COUNT ROUND CELL.

NPAR TESTS
  /K-W=RELIGIOSITY FAMILYINCOME EDUCATION BY GROUP(1 3)
  /MISSING ANALYSIS.

NPAR TESTS
  /M-W= RELIGIOSITY FAMILYINCOME EDUCATION BY GROUP(1 2)
  /MISSING ANALYSIS.

NPAR TESTS
  /M-W= RELIGIOSITY FAMILYINCOME EDUCATION BY GROUP(1 3)
  /MISSING ANALYSIS.

NPAR TESTS
  /M-W= RELIGIOSITY FAMILYINCOME EDUCATION BY GROUP(2 3)
  /MISSING ANALYSIS.

  UNIANOVA AGE BY GROUP
  /METHOD=SSTYPE(3)
  /INTERCEPT=INCLUDE
  /POSTHOC=GROUP(SCHEFFE) 
  /PRINT ETASQ DESCRIPTIVE HOMOGENEITY
  /CRITERIA=ALPHA(.05)
  /DESIGN=GROUP.

UNIANOVA FAMILYNUMBER BY GROUP
  /METHOD=SSTYPE(3)
  /INTERCEPT=INCLUDE
  /POSTHOC=GROUP(SCHEFFE) 
  /PRINT ETASQ DESCRIPTIVE HOMOGENEITY
  /CRITERIA=ALPHA(.05)
  /DESIGN=GROUP.

*****************************************************************************************************************

FACTOR
  /VARIABLES Q2_1 Q2_2 Q2_3
  /MISSING LISTWISE 
  /ANALYSIS Q2_1 Q2_2 Q2_3
  /PRINT INITIAL KMO EXTRACTION ROTATION
  /FORMAT SORT
  /CRITERIA MINEIGEN(1) ITERATE(25)
  /EXTRACTION PC
  /CRITERIA ITERATE(25)
  /ROTATION VARIMAX
  /METHOD=CORRELATION.

RELIABILITY
  /VARIABLES=Q2_1 Q2_2 Q2_3 
  /SCALE('ALL VARIABLES') ALL
  /MODEL=ALPHA
  /STATISTICS=DESCRIPTIVE SCALE
  /SUMMARY=TOTAL.

COMPUTE CIVIC_AWR=MEAN(Q2_1,Q2_2,Q2_3).
EXECUTE.

RECODE Q3_2 Q3_3 (1=6) (2=5) (3=4) (4=3) (5=2) (6=1).
EXECUTE.

FACTOR
  /VARIABLES Q3_2 Q3_3 Q3_4
  /MISSING LISTWISE 
  /ANALYSIS Q3_2 Q3_3 Q3_4
  /PRINT INITIAL KMO EXTRACTION ROTATION
  /FORMAT SORT
  /CRITERIA MINEIGEN(1) ITERATE(25)
  /EXTRACTION PC
  /CRITERIA ITERATE(25)
  /ROTATION VARIMAX
  /METHOD=CORRELATION.

RELIABILITY
  /VARIABLES=Q3_2 Q3_3 Q3_4
  /SCALE('ALL VARIABLES') ALL
  /MODEL=ALPHA
  /STATISTICS=DESCRIPTIVE SCALE
  /SUMMARY=TOTAL.

COMPUTE REF_ACC_POS=MEAN(Q3_2,Q3_3,Q3_4).
EXECUTE.

RECODE Q6A_1 Q6A_2 Q6A_4 Q6A_5 Q6A_6 Q6A_8 Q6A_9 Q6A_11 (1=6) (2=5) (3=4) (4=3) (5=2) (6=1).
EXECUTE.

RECODE Q6B_7 (1=6) (2=5) (3=4) (4=3) (5=2) (6=1).
EXECUTE.

FACTOR
  /VARIABLES Q6A_1 Q6A_2 Q6A_3 Q6A_4 Q6A_5 Q6A_6 Q6A_7 Q6A_8 Q6A_9 Q6A_10 Q6A_11 Q6A_12 Q6A_13
  /MISSING LISTWISE 
  /ANALYSIS Q6A_1 Q6A_2 Q6A_3 Q6A_4 Q6A_5 Q6A_6 Q6A_7 Q6A_8 Q6A_9 Q6A_10 Q6A_11 Q6A_12 Q6A_13
  /PRINT INITIAL KMO EXTRACTION ROTATION
  /FORMAT SORT
  /CRITERIA MINEIGEN(1) ITERATE(25)
  /EXTRACTION PC
  /CRITERIA ITERATE(25)
  /ROTATION VARIMAX
  /METHOD=CORRELATION.

RELIABILITY
  /VARIABLES=Q6A_1 Q6A_2 Q6A_3 Q6A_4 Q6A_5 Q6A_6 Q6A_7 Q6A_8 Q6A_9 Q6A_10 Q6A_11 Q6A_12 Q6A_13
  /SCALE('ALL VARIABLES') ALL
  /MODEL=ALPHA
  /STATISTICS=DESCRIPTIVE SCALE
  /SUMMARY=TOTAL.

RELIABILITY
  /VARIABLES=Q6A_3,Q6A_7,Q6A_10,Q6A_12,Q6A_13
  /SCALE('ALL VARIABLES') ALL
  /MODEL=ALPHA
  /STATISTICS=DESCRIPTIVE SCALE
  /SUMMARY=TOTAL.

RELIABILITY
  /VARIABLES=Q6A_1,Q6A_2,Q6A_4,Q6A_5,Q6A_6,Q6A_8,Q6A_9,Q6A_11
  /SCALE('ALL VARIABLES') ALL
  /MODEL=ALPHA
  /STATISTICS=DESCRIPTIVE SCALE
  /SUMMARY=TOTAL.

COMPUTE REF_POS=MEAN(Q6A_1,Q6A_2,Q6A_3,Q6A_4,Q6A_5,Q6A_6,Q6A_7,Q6A_8,Q6A_9,Q6A_10,Q6A_11,Q6A_12,
    Q6A_13).
EXECUTE.

COMPUTE PRO_UKR=MEAN(Q6A_3,Q6A_7,Q6A_10,Q6A_12,Q6A_13).
EXECUTE.

COMPUTE NEG_UKR=MEAN(Q6A_1,Q6A_2,Q6A_4,Q6A_5,Q6A_6,Q6A_8,Q6A_9,Q6A_11).
EXECUTE.

FACTOR
  /VARIABLES Q6B_1 Q6B_2 Q6B_3 Q6B_4 Q6B_5 Q6B_6 Q6B_7 Q6B_8 Q6B_9
  /MISSING LISTWISE 
  /ANALYSIS Q6B_1 Q6B_2 Q6B_3 Q6B_4 Q6B_5 Q6B_6 Q6B_7 Q6B_8 Q6B_9
  /PRINT INITIAL KMO EXTRACTION ROTATION
  /FORMAT SORT
  /CRITERIA MINEIGEN(1) ITERATE(25)
  /EXTRACTION PC
  /CRITERIA ITERATE(25)
  /ROTATION VARIMAX
  /METHOD=CORRELATION.

RELIABILITY
  /VARIABLES=Q6B_1 Q6B_2 Q6B_3 Q6B_4 Q6B_5 Q6B_6 Q6B_7 Q6B_8 Q6B_9
  /SCALE('ALL VARIABLES') ALL
  /MODEL=ALPHA
  /STATISTICS=DESCRIPTIVE SCALE
  /SUMMARY=TOTAL.

COMPUTE POL_SUP=MEAN(Q6B_1,Q6B_2,Q6B_3,Q6B_4,Q6B_5,Q6B_6,Q6B_7,Q6B_8,Q6B_9).
EXECUTE.

RELIABILITY
  /VARIABLES=Q7_1,Q7_3,Q7_5,Q7_9,Q7_10,Q7_12,Q7_14,Q7_16,Q7_19,Q7_21
  /SCALE('ALL VARIABLES') ALL
  /MODEL=ALPHA
  /STATISTICS=DESCRIPTIVE SCALE
  /SUMMARY=TOTAL.

RELIABILITY
  /VARIABLES=Q7_2,Q7_4,Q7_6,Q7_7,Q7_8,Q7_11,Q7_13,Q7_15,Q7_17,Q7_18,Q7_20
  /SCALE('ALL VARIABLES') ALL
  /MODEL=ALPHA
  /STATISTICS=DESCRIPTIVE SCALE
  /SUMMARY=TOTAL.

COMPUTE POSITIVE=MEAN(Q7_1,Q7_3,Q7_5,Q7_9,Q7_10,Q7_12,Q7_14,Q7_16,Q7_19,Q7_21).
EXECUTE.

COMPUTE NEGATIVE=MEAN(Q7_2,Q7_4,Q7_6,Q7_7,Q7_8,Q7_11,Q7_13,Q7_15,Q7_17,Q7_18,Q7_20).
EXECUTE.

UNIANOVA CIVIC_AWR BY GROUP
  /METHOD=SSTYPE(3)
  /INTERCEPT=INCLUDE
  /POSTHOC=GROUP(SCHEFFE) 
  /PRINT ETASQ DESCRIPTIVE HOMOGENEITY
  /CRITERIA=ALPHA(.05)
  /DESIGN=GROUP.

UNIANOVA REF_ACC_POS BY GROUP
  /METHOD=SSTYPE(3)
  /INTERCEPT=INCLUDE
  /POSTHOC=GROUP(SCHEFFE) 
  /PRINT ETASQ DESCRIPTIVE HOMOGENEITY
  /CRITERIA=ALPHA(.05)
  /DESIGN=GROUP.

GLM PRO_UKR NEG_UKR BY GROUP WITH REF_ACC_POS
  /WSFACTOR=TYPE 2 Polynomial 
  /METHOD=SSTYPE(3)
  /EMMEANS=TABLES(GROUP) WITH(REF_ACC_POS=MEAN)COMPARE ADJ(BONFERRONI)
  /EMMEANS=TABLES(TYPE) WITH(REF_ACC_POS=MEAN)COMPARE ADJ(BONFERRONI)
  /EMMEANS=TABLES(GROUP*TYPE) WITH(REF_ACC_POS=MEAN)
  /PRINT=DESCRIPTIVE ETASQ HOMOGENEITY 
  /CRITERIA=ALPHA(.05)
  /WSDESIGN=TYPE 
  /DESIGN=REF_ACC_POS GROUP.

UNIANOVA PRO_UKR BY GROUP WITH REF_ACC_POS
  /METHOD=SSTYPE(3)
  /INTERCEPT=INCLUDE
  /EMMEANS=TABLES(GROUP) WITH(REF_ACC_POS=MEAN) COMPARE ADJ(BONFERRONI)
  /PRINT ETASQ DESCRIPTIVE HOMOGENEITY
  /CRITERIA=ALPHA(.05)
  /DESIGN=REF_ACC_POS GROUP.

UNIANOVA NEG_UKR BY GROUP WITH REF_ACC_POS
  /METHOD=SSTYPE(3)
  /INTERCEPT=INCLUDE
  /EMMEANS=TABLES(GROUP) WITH(REF_ACC_POS=MEAN) COMPARE ADJ(BONFERRONI)
  /PRINT ETASQ DESCRIPTIVE HOMOGENEITY
  /CRITERIA=ALPHA(.05)
  /DESIGN=REF_ACC_POS GROUP.

UNIANOVA REF_POS BY GROUP WITH REF_ACC_POS
  /METHOD=SSTYPE(3)
  /INTERCEPT=INCLUDE
  /EMMEANS=TABLES(GROUP) WITH(REF_ACC_POS=MEAN) COMPARE ADJ(BONFERRONI)
  /PRINT ETASQ DESCRIPTIVE HOMOGENEITY
  /CRITERIA=ALPHA(.05)
  /DESIGN=REF_ACC_POS GROUP.

UNIANOVA POL_SUP BY GROUP WITH REF_ACC_POS
  /METHOD=SSTYPE(3)
  /INTERCEPT=INCLUDE
  /EMMEANS=TABLES(GROUP) WITH(REF_ACC_POS=MEAN) COMPARE ADJ(BONFERRONI)
  /PRINT ETASQ DESCRIPTIVE HOMOGENEITY
  /CRITERIA=ALPHA(.05)
  /DESIGN=REF_ACC_POS GROUP.

GLM POSITIVE NEGATIVE BY GROUP WITH REF_ACC_POS
  /WSFACTOR=TYPE 2 Polynomial 
  /METHOD=SSTYPE(3)
  /EMMEANS=TABLES(GROUP) WITH(REF_ACC_POS=MEAN)COMPARE ADJ(BONFERRONI)
  /EMMEANS=TABLES(TYPE) WITH(REF_ACC_POS=MEAN)COMPARE ADJ(BONFERRONI)
  /EMMEANS=TABLES(GROUP*TYPE) WITH(REF_ACC_POS=MEAN)
  /PRINT=DESCRIPTIVE ETASQ HOMOGENEITY 
  /CRITERIA=ALPHA(.05)
  /WSDESIGN=TYPE 
  /DESIGN=REF_ACC_POS GROUP.

UNIANOVA POSITIVE BY GROUP WITH REF_ACC_POS
  /METHOD=SSTYPE(3)
  /INTERCEPT=INCLUDE
  /EMMEANS=TABLES(GROUP) WITH(REF_ACC_POS=MEAN) COMPARE ADJ(BONFERRONI)
  /PRINT ETASQ DESCRIPTIVE HOMOGENEITY
  /CRITERIA=ALPHA(.05)
  /DESIGN=REF_ACC_POS GROUP.

UNIANOVA NEGATIVE BY GROUP WITH REF_ACC_POS
  /METHOD=SSTYPE(3)
  /INTERCEPT=INCLUDE
  /EMMEANS=TABLES(GROUP) WITH(REF_ACC_POS=MEAN) COMPARE ADJ(BONFERRONI)
  /PRINT ETASQ DESCRIPTIVE HOMOGENEITY
  /CRITERIA=ALPHA(.05)
  /DESIGN=REF_ACC_POS GROUP.

CORRELATIONS
  /VARIABLES=CIVIC_AWR REF_ACC_POS PRO_UKR NEG_UKR POL_SUP POSITIVE NEGATIVE
  /PRINT=TWOTAIL NOSIG
  /MISSING=PAIRWISE.
    
REGRESSION
  /MISSING LISTWISE
  /STATISTICS COEFF OUTS R ANOVA CHANGE
  /CRITERIA=PIN(.05) POUT(.10)
  /NOORIGIN 
  /DEPENDENT PRO_UKR
  /METHOD=STEPWISE LOC1 LOC2 LOC3 LOC4 LOC5 LOC6 LOC7 GENDER AGE RELIGIOSITY L1 L2 L3 L4 L5 MIF1 
    MIF2 MIF3 MIF4 MIF5 MIF6 MIF7 MIF8 MIF9 MIF11 MIF12 EDUCATION BORNPLACE FS1 FS2 FS3  IMIGRATION
  /METHOD=STEPWISE CIVIC_AWR REF_ACC_POS 
  /METHOD=STEPWISE GROUP1 GROUP2 GROUP3.

REGRESSION
  /MISSING LISTWISE
  /STATISTICS COEFF OUTS R ANOVA CHANGE
  /CRITERIA=PIN(.05) POUT(.10)
  /NOORIGIN 
  /DEPENDENT NEG_UKR
  /METHOD=STEPWISE LOC1 LOC2 LOC3 LOC4 LOC5 LOC6 LOC7 GENDER AGE RELIGIOSITY L1 L2 L3 L4 L5 MIF1 
    MIF2 MIF3 MIF4 MIF5 MIF6 MIF7 MIF8 MIF9 MIF11 MIF12 EDUCATION BORNPLACE FS1 FS2 FS3  IMIGRATION
  /METHOD=STEPWISE CIVIC_AWR REF_ACC_POS 
  /METHOD=STEPWISE GROUP1 GROUP2 GROUP3.

REGRESSION
  /MISSING LISTWISE
  /STATISTICS COEFF OUTS R ANOVA CHANGE
  /CRITERIA=PIN(.05) POUT(.10)
  /NOORIGIN 
  /DEPENDENT POL_SUP
  /METHOD=STEPWISE LOC1 LOC2 LOC3 LOC4 LOC5 LOC6 LOC7 GENDER AGE RELIGIOSITY L1 L2 L3 L4 L5 MIF1 
    MIF2 MIF3 MIF4 MIF5 MIF6 MIF7 MIF8 MIF9 MIF11 MIF12 EDUCATION BORNPLACE FS1 FS2 FS3  IMIGRATION
  /METHOD=STEPWISE CIVIC_AWR REF_ACC_POS 
  /METHOD=STEPWISE GROUP1 GROUP2 GROUP3.

REGRESSION
  /MISSING LISTWISE
  /STATISTICS COEFF OUTS R ANOVA CHANGE
  /CRITERIA=PIN(.05) POUT(.10)
  /NOORIGIN 
  /DEPENDENT POSITIVE
  /METHOD=STEPWISE LOC1 LOC2 LOC3 LOC4 LOC5 LOC6 LOC7 GENDER AGE RELIGIOSITY L1 L2 L3 L4 L5 MIF1 
    MIF2 MIF3 MIF4 MIF5 MIF6 MIF7 MIF8 MIF9 MIF11 MIF12 EDUCATION BORNPLACE FS1 FS2 FS3  IMIGRATION
  /METHOD=STEPWISE CIVIC_AWR REF_ACC_POS 
  /METHOD=STEPWISE GROUP1 GROUP2 GROUP3.

REGRESSION
  /MISSING LISTWISE
  /STATISTICS COEFF OUTS R ANOVA CHANGE
  /CRITERIA=PIN(.05) POUT(.10)
  /NOORIGIN 
  /DEPENDENT NEGATIVE
  /METHOD=STEPWISE LOC1 LOC2 LOC3 LOC4 LOC5 LOC6 LOC7 GENDER AGE RELIGIOSITY L1 L2 L4 L5 MIF1 
    MIF2 MIF3 MIF4 MIF5 MIF6 MIF7 MIF8 MIF9 MIF11 MIF12 EDUCATION BORNPLACE FS1 FS2 FS3  IMIGRATION
  /METHOD=STEPWISE CIVIC_AWR REF_ACC_POS 
  /METHOD=STEPWISE GROUP1 GROUP2 GROUP3.
